US3492804A - Sensor-actuated strand clamping and strand return mechanism for spinning apparatus - Google Patents

Sensor-actuated strand clamping and strand return mechanism for spinning apparatus Download PDF

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Publication number
US3492804A
US3492804A US665118A US3492804DA US3492804A US 3492804 A US3492804 A US 3492804A US 665118 A US665118 A US 665118A US 3492804D A US3492804D A US 3492804DA US 3492804 A US3492804 A US 3492804A
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Prior art keywords
strand
spinning
clamping
chamber
tube
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Expired - Lifetime
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US665118A
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English (en)
Inventor
Hans Landwehrkamp
Franz Schreyer
Karl Handschuch
Adolf Schiltknecht
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Rieter Ingolstadt Spinnereimaschinenbau AG
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Schubert und Salzer Maschinenfabrik AG
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H4/00Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
    • D01H4/04Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques imparting twist by contact of fibres with a running surface
    • D01H4/08Rotor spinning, i.e. the running surface being provided by a rotor

Definitions

  • a clamp located between strand-twisting mechanism and strand-drawing mechanism may be a slide or a swinging arm movable to bear against a complemental surface, or a contractable elastic member, which grips the strand to prevent the strand end from being withdrawn from the spinning apparatus. Movement of a guide to increase the length of the strand stretch between the clamp and drawing mechanism may be synchronized with gripping movement of the clamp. Such guide is movable reversely when the clamp is released to provide slack in the stretch which permits the strand end to drop into the spinning chamber.
  • a mechanical or photoelectric sensor responsive to decrease in strand tension or to the absence of strand actuates the clamp. The clamp may be released either voluntarily, or by actuation of the spinning apparatus, or by means operable by or in synchronism with the clamp or guide.
  • the fiber sliver is supplied to a spinning chamber which has an area for collecting fiber from the sliver and binding it to form a strand to which twist is applied for producing yarn.
  • the strand is withdrawn from the spinning apparatus by drawing mechanism exteriorly of the apparatus.
  • the drawing process is continuous so that the spinning apparatus must have an opening in it through which the strand can be withdrawn whether such apparatus is a cup-shaped rotary chamber such as shown in copending application Ser. No.
  • the gripper would slide along its track toward the opening, but a suction source must be provided to pull the strand end from the opening into the fiber-collection area of the machine. Also, it is necessary to provide mechanism for reversing the direction of movement of the drawing apparatus in order to permit the strand to be pulled or dropped back into the collection area.
  • winding and unwinding rollers be rigidly coupled by reduction gearing and that electric-sensing means be provided to energize mechanism for activating the unwinding rollers for a predetermined number of revolutions in order to return the strand end to the collection area and then to activate the winding rollers.
  • This type of mechanism is shown in United States Patent 3,354,631. This apparatus can be effective only if the gripper grasps the strand 2. sufiicient distance above its free end so that the free end remains within the spinning machine while the gripper moves along the track toward the drawing mechanism until it comes to a stop.
  • An additional object is to provide such clamping and strand-end return apparatus which is economical and which can operate automatically and reliably to start the spinning operation or to restart such operation after strand breakage.
  • FIGURE 1 is a vertical section through spinning apparatus having a strand-clamping mechanism in accordance with the present invention and FIGURE 2 is a top plan of such apparatus.
  • FIGURE 3 is an axial section through a strand-withdrawal tube showing a clamping device with parts broken away.
  • FIGURE 4 is a fragmentary vertical section through the withdrawal portion of Spinning apparatus showing a further modified strand-clamping device.
  • FIGURE 5 is a somewhat diagrammatic top perspective of a spinning-machine cover, withdrawal opening and strand-drawing rolls showing clamping, releasing and return-feed mechanism of the present invention.
  • FIGURE 6 is a diagrammatic longitudinal section through spinning apparatus different from that of FIG- URES 1 through 5 including strand-clamping mechanism;
  • FIGURE 7 is a longitudinal section through another type of spinning apparatus including a clamping mechanism 3 and
  • FIGURE 8 is a longitudinal section through still another type of spinning apparatus including modified clamping mechanism.
  • FIGURES 9, l and 11 are similar diagrammatic elevations of a spinning chamber, withdrawal opening and strand-drawing rolls including strand-clamping means and strand-end return mechanism in diflerent operative positions.
  • FIGURE 1 Shown in FIGURE 1 is a rotary spinning chamber 2 enclosed in a stationary housing 1 having a cover 11.
  • a fiber sliver S is fed through rolls 5 and feed tube 51 extending through cover 11 into strand-forming chamber 2 to direct the sliver toward the wall of the chamber interior.
  • Fibers, separated by a higher rate of velocity of the rolls 5 as of the supply of the silver S, are moved by centrifugal action to the portion of the chamber having the greatest diameter, which portion defines a fiber-collection channel. Fibers in the channel form a ring R which is spun into a strand F and then twisted into yarn and the strand is withdrawn through a stationary tube 6 in cover 11 by drawing rolls 3.
  • the strand end In order to resume the spinning operation, the strand end must be manually inserted into the tube and rotation of the drawing rolls reversed to provide a sufiicient length of strand to extend into the strand-forming chamber 2 adjacent to its collection channel 24.
  • a clamp 7 is provided between the spinning chamber and drawing rolls 3 to clamp the strand before its free end has moved an appreciable distance out of the chamber.
  • the clamp includes a slide 70 slidable in guide channel 71 in cover 11 extending transversely of tube 6. In clamping position slide 70 bears against the left wall of tube 6 as seen in FIGURE 1, which is opposite the clamp guide channel, and thereby clamps strand F between the slide and the tube wall.
  • the slide can be actuated pneumatically, electromagnetically or mechanically, either voluntarily or automatically, and may be actuated for a single spinning chamber or for several spinning chambers simultaneously.
  • the slide may be actuated automatically simultaneously with stoppage of supply rolls 5, spinning chamber 2 and drawing rolls 3 to hold strand F in tube 6 when the spinning tension is relaxed by such stoppage.
  • FIGURE 2 the slide or piston 70 is moved toward tube wall 60 into strand-clamping position by compressed air supplied through conduit to a space 74 on the side of the slide remote from wall 60.
  • the slide is returned to released position by tension spring 72 when the compressed air supply is interrupted.
  • a pressure-responsive switch 73 is mounted on the inner side of cover 11.
  • a tube 4 in communication with housing 1 is connected to a suction source to provide a vacuum in the spinning chamber when the chamber is in operation.
  • the vacuum source is turned off and the pressure in the chamber rises to actuate switch 73.
  • Such switch energizes solenoid valve 76 in conduit 75 to supply compressed air to move piston 70 into strandclamping engagement with the wall 60.
  • solenoid valve 76 is de-energized and spring 72 returns slide 70 to the right into its released position, as shown in FIGURE 2, to release strand F.
  • FIGURE 4 an electromagnetically-operated strand clamp is shown.
  • the slide 711 is moved into the solidline position by an electromagnet 710 in which position the slide remains during rotation of the spinning chamber.
  • Pressure-sensitive switch 73 is connected to such electromagnet so that when the chamber and vacuum source are stopped the switch reverses the direction of the direct current flowing through electromagnet 710 to reverse its polarity and urge slide 711 to the broken-line position clamping strand F.
  • an elastic sleeve 700 is provided in the bore of withdrawal tube 61 along a minor portion of the length of the tube.
  • An annular cavity 701 sealed from the tube bore and encircling the sleeve communicates with a fluid-supply conduit 702. Compressed air supplied to the cavity through such conduit will exert pressure on the sleeve to collapse it to the broken-line position 700' to pinch the strand F moving axially through such bore.
  • the sleeve will resume its unflexed bore-lining position because of its elasticity.
  • a pressure-responsive switch 73 has been described in connection with FIGURES 2 and 4 for actuating the clamping mechanism when the rotation of spinning chamber 2 is interrupted.
  • the pressure in the chamber would not change, however, if the strand were simply to break so that the switch would not be energized to actuate the strand clamp. Consequently, it is desirable to provide a sensing mechanism which is responsive to the decrease in strand tension resulting from a break in the strand.
  • FIGURE 5 shows a different type of mechanism for actuating valve 76 for supplying compressed air through conduit 75 to cavity 74 of the strand-clamping mechanism 7.
  • Such air moves piston 70 through slot 71 into the bore of withdrawal tube 6'.
  • An arm 720 has a free end extending through slots 62 in withdrawal tube 6 and transversely through the tube bore. The opposite arm end is connected to a pivot sleeve 727. Also connected to such pivot sleeve is one end of an arm 721 having a flag 722 on its opposite end which normally breaks the light beam between a light source 724 and a photoelectric cell 725. Arm 720 is normally held in the solid-line stressed position by the normal spinning tension in the strand.
  • supplementary control means may be provided to move arm 721 and fiag 722 positively into the solid-line position of FIGURE 5, or an overriding control for valve 76 may be provided to interrupt the compressed air supply to the piston without de-energizing the photoelectric cell, or the photoelectric cell may be de-energized by interposing a shutter other than flag 722 between it and the light source.
  • FIGURES 9, 10 and 11 another type of mechanism for automatically clamping the strand, releasing the clamp and reversing the strand to restart the spinning operation is shown.
  • a pivot 32 has extending from it one arm having a strand guide 31 on its swinging end, a second arm having a thread clamping member 741 on its swinging end and an arm 742 connected to the core of a double-acting solenoid 743 having two magnetizing coils.
  • the strandwithdrawal tube 611 has a slot 64 near its upper end to receive clamping member 741 and its arm so that the clamping member can swing into the tube and press the strand against the tube wall opposite the slot.
  • the two coils of solenoid 743 are energized selectively by a single pole double-throw switch having a first contact 744 connected to the upper coil of the solenoid, a second contact 745 connected to the sensor-actuated switch arm 750 by lead 753 and a switch arm 746 selectively engageable with such contacts.
  • Such switch arm is connected to one side of an electric current source, which may be a battery 754, and the other side of such electric current source is connec ed in common to both coils of solenoid 743.
  • Contact 751 of the sensor switch is connected directly to the lower coil of solenoid 743 by lead 752.
  • Switch 744. 745, 746 is normally in the position shown in FIGURE 9 in which switch arm 746 is engaged with contact 745.
  • a limit switch is closed to effect movement of switch arm 746 into engagement with contact 744.
  • Current flowing from battery 754 through switch arm 746 and contact 744 energizes the upper coil of solenoid 745 which moves the core upward to the position of FIGURE 11.
  • Such core movement swings arm 742 to rotate pivot 32 in the counterclockwise direction from the position of FIGURE 10.
  • This pivot rotation moves the clamping piece 741 out of slot 64 in tube 611 and guide 31 is moved toward alignment with the tube axis as shown in FIGURE 11 to feed strand F back into the, withdrawal tube.
  • a further limit switch closed in synchronism with movement of the solenoid core to its uppermost position, may be provided to start drawing rolls 3 so that the spinning machine can be automatically restarted and to return the clamping and guiding mechanism to its normal position of FIGURE 9. If it is desired to shut down the spinning machine, a master switch would override the automatic mechanism, but such master control should not take effect until the strand is clamped by member 741.
  • the clamping mechanism of the present invention is not limited to spinning apparatus having a rotating spinning chamber of the type shown in FIGURES l and and 2 and can be adapted for use with most types of continuous spinning apparatus.
  • Three different types of spinning apparatus are shown in FIGURES 6, 7 and 8 having clamping mechanism according to the present invention.
  • An electrostatic open-end spinning device shown in FIGURE 6 includes supply rollers 500 and 501 between which fiber sliver S is fed. Initially, the fiber tends to be fluffcd and separated as indicated at Z, but the lower roller 501 is charged with a negative potential so that the fiber adheres to such roller and tends to be carried around with it. A fiber collection surface 221 is charged with a positive potential and the strand portion Z is pulled from roller 501 by such positive charge. Housing 220, including collection surface 221 and a strand-withdrawal tube, is mounted for rotation to twist a portion of the strand F. Cams 203 in the housing bear against opposite sides of the strand to brake its speed of travel through the housing and withdrawal tube to effect yarn twist more positively. Because the withdrawal tube is rotated, the strand-clamping mechanism is located outside of but closely adjacent to the strand discharge end of the tube.
  • Such clamping mechanism includes clamping members 733 and 733 at diametrically opposite sides of the withdrawal tu'be.
  • Member 733 is stationary and member 733 is mounted on one end of a rod 737, such rod being an extension of the core 731 of solenoid 730.
  • a compression spring 734 encircles rod 737 and has one en bearing on the solenoid housing and its opposite end bearing against clamping member 733.
  • a sensor 735 includes a strand-engaging member mounted on a resilient arm. By tension in the strand exerting pressure on the strand-engaging member such arm is held in engagement with contact 736 during normal spinning to energize coil 734 of solenoid 730 and thereby to hold clamping member 733 out of engagement with member 733'. When the yarn tension is reduced, the resilient arm of sensor 735 disengages contact 736, thereby de-energizing the solenoid so that compression spring 734 will urge clamping member 733 to the left, as seen in FIGURE 6, to clamp the strand against member 733'. If desired, both clamping members 733 and 733' could be mounted for simultaneous reciprocation toward and away from each other.
  • spinning apparatus having a housing 200, including a stationary strand-forming chamber having a screen 201 forming the fiber collection surface, is shown.
  • this machine twist is effected in the strand by a rotatable housing 202 interposed between the collection chamber and withdrawal tube 600.
  • the strandclarnping apparatus is similar to that shown in FIGURE 6 and includes clamping members 733 and 733', spring 734 and solenoid 730.
  • withdrawal tube 600 has diametrically aligned windows 601 in its opposite sides.
  • a light source 724 casts a beam of would actuate suitable mechanism to de-energize solenoid coil 732 and thereby permit spring 734 to urge clamp member 733 to the left, as seen in FIGURE 7, to clamp strand F against member 733'.
  • Photoelectric sensing means such as described in connection with FIGURE 7, could be used with a rotatingwithdrawal tube, such as shown in FIGURE 6.
  • An annular window could be provided in the tube to permit passage of a light beam during such tube rotation.
  • FIGURE 8 A pneumatic spinning device is shown in FIGURE 8 in which fiber sliver is fed through rolls 5 and fiber is drawn by suction from the sliver through feed tube 211 into collection chamber 210.
  • the housing for this spinning apparatus includes a lower hollow chamber 214 having an opening 40 in its lower end for applying suction to the chamber. Withdrawal tube 213 is spaced slightly from the upper housing section 215.
  • the upper housing portion is a cylinder having a bore smaller than that of the lower section, which bore defines an extension of withdrawal tube 213.
  • a twist-imparting chamber 212 in the upper portion of this section is aligned with the composite withdrawal tube. Air is supplied to the twistimparting chamber to induce the strand to spin around the periphery of the chamber to effect twist.
  • the air supply to the twist-imparting chamber is drawn by suction, applied at opening 40, down through the strand passage and may be vented at various locations, as indicated by the arrows in housing portion 214. Vent perforations provided in strand-forming chamber 210 draw fibers to the Walls of such chamber. As the free strand end is flipped around the collection chamber by the rtation of the strand portion in the twist-impartinig chamber, such strand end scavenges the fiber from the walls.
  • the strand is not under substantial tension, but it may be pulled out of the strandforming chamber, such as when the machine is to be shut down or if insufiicient fiber is fed to the strand-forming chamber to continue the spinning.
  • An electromagnet encircles clamping slide 711 located in a bore extending transversely of and communicating with the upper housing section bore. The slide is respectively movable by the electromagnet into and out of a clamping position in which such slide bears against the diametrically opposite passage wall by reversing the polarity of the electromagnet.
  • the clamp-actuating sensor is a photoelectric cell 725 which receives a light beam 723 from light source 724 through windows 217 in withdrawal tube 213, similar to that described in connection with FIGURE 7.
  • a guide such as guide 30 shown in FIGURE and described above, may be provided between the strand clamp 711 and drawing rollers 3 in any of the devices shown in FIGURES 1, 7 and 8 to increase the strand stretch between them.
  • Such guide is movable to make the stretch sufiiciently slack to permit it to drop into the fiber collection area to resume the spinning operation after the clamp is released.
  • the clamp members may be normally closely adjacent to each other to engage and work on the surface of the strand or yarn passing between them, such as to facilitate smoothing the strand surface, or to supplement or replace braking cams such as shown in FIGURES 6 and 7. In such case the movable clamp member would be moved out of engagement with the strand only to permit unhindered manipulation of the strand in returning its free end to the strand-forming chamber.
  • the improvement comprising clamping means independent of the strandwithdrawal device, located between the strand-withdrawal device and the strand-forming chamber and actuatable to clamp the strand stretch against longitudinal movement, sensing means for sensing a predetermined change in spinning conditions, and actuating means operated by said sensing means for actuating said clamping means.
  • the sensing means being responsive to changes in tension of the strand stretch.
  • the strand-forming chamber being a rotary chamber
  • the sensing means being responsive to changes in pressure in the rotary chamber.
  • sensing means is a pressure-sensitive switch.
  • actuating means including electromagnet means.
  • actuating means including pneumatic means.
  • clamping means including a reciprocable slide.
  • the slide being located exteriorly of but closely adjacent to the end of the withdrawal tube closer to the strand-withdrawing device.
  • the strand-withdrawal tube having a slot therein through which the clamping means is movable.
  • the clamping means including a resilient tube through which the strand extends and which is contractable to grip the strand.
  • the clamping means including a pivoted three arm lever, one arm having a clamping member on its end operable to clamp or release the strand stretch, the second arm having a strand-guiding member on its end operable to hold the portion of the strand stretch between said clamping member and the strand-withdrawal device out of alignment with a straight line extending between the strandwithdrawal device and the end of the strand-withdrawal tube means nearer the strand-withdrawal device when said clamping member is in its strand-clamping position and movable toward such alignment to provide slack in such portion of the strand stretch when said clamping member is moved to its strand-releasing position, and the third arm being connected to the actuating means 1, the
  • the improvement comprising clamping means actuatable to clamp the strand stretch against longitudinal movement by the strand-withdrawal device and to release the strand for longitudinal movement by the strand-withdrawal device, sensing means for sensing a predetermined change in spinning conditions, back-delivery means to deliver such stretch of strand back into the strand-forming chamber, and actuating means operated by said sensing means for effecting strandclamping operation of said clamping means and by said back-delivery means for releasing said strand-clamping means.
  • a method of continuously spinning yarn including supplying fiber sliver to a strand-forming chamber of spinning apparatus, resolving such sliver into individual fibers, forming a strand, drawing such strand with a strandwithdrawal device longitudinally from the strand-forming chamber, imparting twist to such strand, and drawing the twisted strand longitudinally from the spinning apparatus, the steps of sensing a discontinuity in the strand forming, twisting and drawing steps, and clamping the strand at a location between the strand-forming chamber and the strand-withdrawal device against longitudinal movement upon the occurrence of such discontinuity.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
  • Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)
  • Tension Adjustment In Filamentary Materials (AREA)
US665118A 1966-09-03 1967-09-01 Sensor-actuated strand clamping and strand return mechanism for spinning apparatus Expired - Lifetime US3492804A (en)

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US (1) US3492804A (en, 2012)
BE (1) BE703368A (en, 2012)
BR (1) BR6790543D0 (en, 2012)
CH (1) CH459022A (en, 2012)
DE (1) DE1560304B1 (en, 2012)
ES (1) ES344168A1 (en, 2012)
GB (1) GB1160615A (en, 2012)

Cited By (24)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3601969A (en) * 1968-02-02 1971-08-31 Toray Industries Method and apparatus for performing an open-end spinning operation
US3651632A (en) * 1969-04-09 1972-03-28 Tmm Research Ltd Open-end spinning devices
US3662532A (en) * 1969-07-04 1972-05-16 Stahlecker Gmbh Wilhelm Spinning device for spinning threads by the open-end method
US3685270A (en) * 1969-05-05 1972-08-22 Skf Kugellagerfabriken Gmbh System of spinning yarn
US3699765A (en) * 1970-11-10 1972-10-24 North American Rockwell Electrostatic spinning head
US3816990A (en) * 1972-03-23 1974-06-18 Krupp Gmbh Device for exchanging bobbins on an open-end spinning machine
US3826073A (en) * 1971-03-30 1974-07-30 Schubert & Salzer Maschinen Rotatable sliding-thread clamp for textile machines
US3879926A (en) * 1972-08-05 1975-04-29 Skf Kugellagerfabriken Gmbh Method and apparatus for controlling the rejoining of thread in an open ended spinning machine
US3892062A (en) * 1973-04-30 1975-07-01 Fritz Stahlecker Apparatus for start-spinning on an open-end spinning machine
US3924394A (en) * 1973-10-10 1975-12-09 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3924393A (en) * 1973-10-10 1975-12-09 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3925975A (en) * 1973-10-10 1975-12-16 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3945185A (en) * 1973-12-19 1976-03-23 Osaka Kiko Co., Ltd. Pneumatic and static electricity open-end spinning method and apparatus therefor
US3973382A (en) * 1974-02-12 1976-08-10 Hironori Hirai Yarn guide device for an open-end spinning machine
US4023336A (en) * 1974-06-26 1977-05-17 Fried. Krupp Gesellschaft Mit Beschrankter Haftung Yarn reserve forming and moving apparatus
US4054024A (en) * 1974-09-30 1977-10-18 Hironori Hirai Apparatus for stopping and restarting the operation of an open-end spinning system
US4132056A (en) * 1975-12-23 1979-01-02 Schubert & Salzer Open end spinning apparatus
USRE30167E (en) * 1973-04-30 1979-12-18 Apparatus and method for start-spinning on an open-end spinning machine
DE3433682A1 (de) * 1983-09-13 1985-03-28 Výzkumný ústav bavlnářský, Ustí nad Orlicí Vorrichtung zur notabschaltung der fasermaterialzufuhr in der spinneinheit einer offen-end-spinnmaschine
US4698956A (en) * 1986-05-29 1987-10-13 Gentex Corporation Composite yarn and method for making the same
WO2005047577A1 (de) * 2003-10-20 2005-05-26 Maschinenfabrik Rieter Ag Luftdüsen-spinnvorrichtung
CN113215692A (zh) * 2020-01-21 2021-08-06 村田机械株式会社 气流纺纱机
CN114746591A (zh) * 2019-11-29 2022-07-12 卓郎智能技术有限公司 纺纱工位和包括这种纺纱工位的气流纺纱机
CN117230550A (zh) * 2023-10-27 2023-12-15 冠县鑫昌纺织有限责任公司 配有捻转保持元件的转杯纺纺纱装置

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JPS583053B2 (ja) * 1979-05-11 1983-01-19 株式会社豊田自動織機製作所 オ−プンエンド精紡機の停止及び起動方法

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US3334479A (en) * 1966-03-11 1967-08-08 Vyzk Ustav Bavlnarsky Device for securing yarn during stoppage of the spinning mechanism for the continuous ringless spinning of textile fibers
US3354626A (en) * 1966-09-26 1967-11-28 Cizek Leopold Method and apparatus for stopping and starting a spinning machine
US3354631A (en) * 1964-04-20 1967-11-28 Vyzk Ustav Bavlnarsky Method and apparatus for preventing interruption of a spinning process during breakage of the spun thread
US3354627A (en) * 1964-05-19 1967-11-28 Vyzk Ustav Bavlnarsky Yarn control apparatus
US3355868A (en) * 1965-09-06 1967-12-05 Vyzk Ustav Bavlnarsky Yarn controlling apparatus

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US3354631A (en) * 1964-04-20 1967-11-28 Vyzk Ustav Bavlnarsky Method and apparatus for preventing interruption of a spinning process during breakage of the spun thread
US3354627A (en) * 1964-05-19 1967-11-28 Vyzk Ustav Bavlnarsky Yarn control apparatus
US3355868A (en) * 1965-09-06 1967-12-05 Vyzk Ustav Bavlnarsky Yarn controlling apparatus
US3334479A (en) * 1966-03-11 1967-08-08 Vyzk Ustav Bavlnarsky Device for securing yarn during stoppage of the spinning mechanism for the continuous ringless spinning of textile fibers
US3354626A (en) * 1966-09-26 1967-11-28 Cizek Leopold Method and apparatus for stopping and starting a spinning machine

Cited By (27)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3601969A (en) * 1968-02-02 1971-08-31 Toray Industries Method and apparatus for performing an open-end spinning operation
US3651632A (en) * 1969-04-09 1972-03-28 Tmm Research Ltd Open-end spinning devices
US3685270A (en) * 1969-05-05 1972-08-22 Skf Kugellagerfabriken Gmbh System of spinning yarn
US3662532A (en) * 1969-07-04 1972-05-16 Stahlecker Gmbh Wilhelm Spinning device for spinning threads by the open-end method
US3699765A (en) * 1970-11-10 1972-10-24 North American Rockwell Electrostatic spinning head
US3826073A (en) * 1971-03-30 1974-07-30 Schubert & Salzer Maschinen Rotatable sliding-thread clamp for textile machines
US3816990A (en) * 1972-03-23 1974-06-18 Krupp Gmbh Device for exchanging bobbins on an open-end spinning machine
US3879926A (en) * 1972-08-05 1975-04-29 Skf Kugellagerfabriken Gmbh Method and apparatus for controlling the rejoining of thread in an open ended spinning machine
USRE30167E (en) * 1973-04-30 1979-12-18 Apparatus and method for start-spinning on an open-end spinning machine
US3892062A (en) * 1973-04-30 1975-07-01 Fritz Stahlecker Apparatus for start-spinning on an open-end spinning machine
US3924394A (en) * 1973-10-10 1975-12-09 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3924393A (en) * 1973-10-10 1975-12-09 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3925975A (en) * 1973-10-10 1975-12-16 Fritz Stahlecker Apparatus for piecing a thread in an open-end spinning unit
US3945185A (en) * 1973-12-19 1976-03-23 Osaka Kiko Co., Ltd. Pneumatic and static electricity open-end spinning method and apparatus therefor
US3973382A (en) * 1974-02-12 1976-08-10 Hironori Hirai Yarn guide device for an open-end spinning machine
US4023336A (en) * 1974-06-26 1977-05-17 Fried. Krupp Gesellschaft Mit Beschrankter Haftung Yarn reserve forming and moving apparatus
US4054024A (en) * 1974-09-30 1977-10-18 Hironori Hirai Apparatus for stopping and restarting the operation of an open-end spinning system
US4132056A (en) * 1975-12-23 1979-01-02 Schubert & Salzer Open end spinning apparatus
DE3433682A1 (de) * 1983-09-13 1985-03-28 Výzkumný ústav bavlnářský, Ustí nad Orlicí Vorrichtung zur notabschaltung der fasermaterialzufuhr in der spinneinheit einer offen-end-spinnmaschine
US4584833A (en) * 1983-09-13 1986-04-29 Vyzkumny Ustav Bavlnarsky Apparatus for emergency interruption of fiber supply to a spinning unit of open-end spinning machines
US4698956A (en) * 1986-05-29 1987-10-13 Gentex Corporation Composite yarn and method for making the same
WO2005047577A1 (de) * 2003-10-20 2005-05-26 Maschinenfabrik Rieter Ag Luftdüsen-spinnvorrichtung
CN114746591A (zh) * 2019-11-29 2022-07-12 卓郎智能技术有限公司 纺纱工位和包括这种纺纱工位的气流纺纱机
CN114746591B (zh) * 2019-11-29 2023-09-12 卓郎智能技术有限公司 纺纱工位和包括这种纺纱工位的气流纺纱机
CN113215692A (zh) * 2020-01-21 2021-08-06 村田机械株式会社 气流纺纱机
CN113215692B (zh) * 2020-01-21 2024-03-05 村田机械株式会社 气流纺纱机
CN117230550A (zh) * 2023-10-27 2023-12-15 冠县鑫昌纺织有限责任公司 配有捻转保持元件的转杯纺纺纱装置

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GB1160615A (en) 1969-08-06
DE1560304B1 (de) 1971-02-25
CH459022A (de) 1968-06-30
BE703368A (en, 2012) 1968-02-01
BR6790543D0 (pt) 1973-06-12
ES344168A1 (es) 1968-09-16

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